A system is taken from state A to state B along two different paths 1 and 2 . The heat absorbed and work done by the system along these two paths are `Q_(1)` and `W_(1)` and `W_(2)` respectively.

A system is taken from state A to state B along two different paths 1 and 2. The heat absorbed and work done by the system along these two paths are Q_(1) and Q_(2) , and W_(1) and W_(2) respectively.

A system is taken from state "A" to state "B" along two different paths,"1" and "2." The heat absorbed and work done by the system along these two paths are Q1 and Q2 and W1 and W2 respectively

A system is taken from state a to state c along the path adc (figure). The amount of heat absorbed is 10 cals and work done on the gas is 138 J . Calculate the work done on//by the gas when 20 cals of heat are absorbed in taking the system from state a to state c along the path abc

a thermodynamic system is taken from the state i to statef along the path iaf. It is found that the heat absorbed by the system is 40 cal and work done by the system is 16.19 cal. Along the path i bf, the heat absorbed is 35 cal. (a) Find the work done along the path i bf. (b) If W = - 10 cal for the curved return path fi, what is for this path ? (c) Take U_(b) = 20 cal, what is U _(f)? (d) If U _(b) = 20 cal, what is for the process ib?

A thermodynamic system is taken from an initial state I with internal energy U_i=-100J to the final state f along two different paths iaf and ibf, as schematically shown in the figure. The work done by the system along the pat af, ib and bf are W_(af)=200J, W_(ib)=50J and W_(bf)=100J respectively. The heat supplied to the system along the path iaf, ib and bf are Q_(iaf), Q_(ib),Q_(bf) respectively. If the internal energy of the system in the state b is U_b=200J and Q_(iaf)=500J , The ratio (Q_(bf))/(Q_(ib)) is

A thermodynamic system is taken from an initial state I with internal energy U_i=-100J to the final state f along two different paths iaf and ibf, as schematically shown in the figure. The work done by the system along the pat af, ib and bf are W_(af)=200J, W_(ib)=50J and W_(bf)=100J respectively. The heat supplied to the system along the path iaf, ib and bf are Q_(iaf), Q_(ib),Q_(bf) respectively. If the internal energy of the system in the state b is U_b=200J and Q_(iaf)=500J , The ratio (Q_(bf))/(Q_(ib)) is